1064nm electro optic Phase Modulator

  • Rof Electro Optical Modulator 1064nm Eo modulator LiNbO3 phase modulator 2G

    Rof Electro Optical Modulator 1064nm Eo modulator LiNbO3 phase modulator 2G

    The LiNbO3 phase modulator is widely used in high-speed optical communication system, laser sensing and ROF systems because of well electro-optic effect. The R-PM series based on Ti-diffused and APE technology, has stable physical and chemical characteristics, which can meet requirement of the most applications in laboratory experiments and industrial systems.

  • Rof Electro-optic modulator Eo modulator 300MHz 1064nm LiNbO3 phase modulator

    Rof Electro-optic modulator Eo modulator 300MHz 1064nm LiNbO3 phase modulator

    The LiNbO3 phase modulator is widely used in high-speed optical communication system, laser sensing and ROF systems because of well electro-optic effect. The R-PM series based on Ti-diffused and APE technology, has stable physical and chemical characteristics, which can meet requirement of the most applications in laboratory experiments and industrial systems.

  • Rof Electro-optic modulator 1064nm Eo modulator phase modulator 10G

    Rof Electro-optic modulator 1064nm Eo modulator phase modulator 10G

    The LiNbO3 phase modulator is widely used in high-speed optical communication system, laser sensing and ROF systems because of well electro-optic effect. The R-PM series based on Ti-diffused and APE

    technology, has stable physical and chemical characteristics, which can meet requirement of the most applications in laboratory experiments and industrial systems.

  • Rof Electro-optic modulator 1064nm Low Vpi phase modulator

    Rof Electro-optic modulator 1064nm Low Vpi phase modulator

    Rof-PM-UV series Low-Vpi phase modulator has low half-wave voltage2V, low insertion loss, high bandwidth, high damage characteristics of optical power, chirp in high-speed optical communication system is mainly used for light control, phase shift of coherent communication system, sideband ROF system and reduce the simulation of optical fiber communication system in Brisbane deep stimulated scattering (SBS), etc.